System and Method for Changing Order Priority Levels in an Electronic Trading Environment

ABSTRACT

A system and method for fee-based order priority level modification in an electronic trading environment are described. When an order reaches an exchange, a priority level of the order may be changed to a higher priority level, and the priority level of the order initially at the higher priority level may be changed to a lower priority level of the received order. In one embodiment, a trader who is gaining a higher priority level will be preferably charged a fee for having his order moved to the higher priority level, and at least a portion of that fee may be paid to a trader who is giving up his high priority level.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. patent application Ser. No.12/780,770, filed May 14, 2010, entitled “System and Method for ChangingOrder Priority Levels in an Electronic Trading Environment,” which is acontinuation of U.S. patent application Ser. No. 11/416,462, filed May2, 2006, now U.S. Pat. No. 7,747,493, which is a continuation of U.S.patent application Ser. No. 10/652,180, filed Aug. 29, 2003, now U.S.Pat. No. 7,769,652, the contents of which are fully incorporated hereinby reference.

FIELD OF INVENTION

The present invention is directed towards electronic trading. Morespecifically, the present invention is directed towards providing meansfor changing priority levels of orders in an electronic tradingenvironment.

BACKGROUND

In recent years, a trend towards electronic trading has becomewell-established, causing one major exchange after another to replace orat least supplement the traditional open outcry, where a trade is doneface to face, with automated, electronic systems which automaticallymatch bids and offers. While the motivation behind using electronictrading may vary from market to market, greater efficiency and volumeare some of the considerations.

Electronic trading is generally based on a host exchange, one or morecomputer networks and client devices. In general, the host exchangeincludes one or more centralized computers to form the electronic heart.The exchange allows a trader to participate in trading at least oneelectronic market, and conducts matching of bids and offers being placedby the subscribing traders for that market. Typically, subscribingtraders connect to an exchange by way of a communication link andthrough an application program interface to establish real-timeelectronic messaging between the exchange and their terminals. Thereal-time electronic messaging includes market information that is sentfrom an electronic market to the traders.

An electronic exchange can list any number of markets. Often times,traders will trade simultaneously in more than one market, and they maytrade simultaneously in markets that are listed at more than oneexchange. Ordinarily, each market has its own electronic market, andtherefore, its own separate stream of market information. Therefore, inthese instances, the traders will generally receive more than one streamof market information such that each stream of market informationattempts to characterize a given market. In addition to receiving marketinformation from exchanges, a trader might subscribe to news feeds toreceive real-time quotations that may assist the trader in making theirtrading decisions.

Generally, when a trader submits an order to a host exchange, the hostchecks the conditions associated with the order, for example, price andquantity, and prioritizes the order with other orders of the same price.When the order conditions are satisfied in the market, a trade occursand trade information is then relayed in some fashion to one or moreclient devices. In fact, the host exchanges typically publish a datafeed to the client devices so that the traders can have access to themost current market information.

Market information commonly includes information regarding the insidemarket and market depth. The inside market is the lowest sell price inthe market and the highest buy price in the market at a particular pointin time. Market depth refers to quantities available at the insidemarket and may also refer to quantities available at other prices awayfrom the inside market. The quantity available at a given price level isusually provided by the host exchange in aggregate sums. In other words,a host exchange usually provides the total buy or the total sellquantity available in the market at a particular price level in its datafeed. The extent of the market depth available to a trader usuallydepends on the host exchange. For instance, some host exchanges providemarket depth for all or many price levels, while some provide onlyquantities associated with the inside market, and others may provide nomarket depth at all. Additionally, host exchanges can offer other typesof market information such as the last traded price (“LTP”), the lasttraded quantity (“LTQ”), and order fill information.

The costs of electronic trading are in general much lower than thosebeing incurred by traders who trade on the open outcry exchanges. Unlikeopen outcry systems, electronic trading no longer requires brokers orclerks, and reduces overhead costs including building, staffing, andback-office costs associated with the open outcry exchanges. However, inboth, electronic and open outcry exchanges, member firms and individualtraders bear the fixed costs of operations, which are paid regardless ofthe volume traded. In addition to the fixed costs, traders incur pereach trade costs or per each share costs for orders that are executed atan electronic exchange, which further decrease trader's profits.

Regardless of the type of matching algorithm used by the electronicmarket, traders have limited means to control order positions in anorder queue at an electronic exchange or costs incurred per each trade.Thus, it is still desirable for electronic trading applications to offertools that can assist a trader in trading in an electronic tradingenvironment, help making profitable trades in a speedy and accuratemanner, while allowing the trader to conveniently control his/her orderpositions at an exchange, as well as to provide flexibility incontrolling costs incurred per each trade.

BRIEF DESCRIPTION OF THE DRAWINGS

Example embodiments of the present invention are described herein withreference to the following drawings, in which:

FIG. 1 is an example network configuration for a communication systemutilized to access one or more exchanges;

FIG. 2 is a block diagram illustrating an example client device that canbe used in the example network of FIG. 1;

FIG. 3 is a block diagram illustrating an example electronic exchangethat can be used in the example network of FIG. 1;

FIG. 4 is an example flow chart illustrating one example method forchanging priority levels of orders in an electronic trading environment;

FIGS. 5A-5C are block diagrams that attempt to graphically illustratethe process of moving orders between different priority levels in anorder queue;

FIGS. 6A-6C are block diagrams that attempt to graphically illustratethe process of moving an order to a higher priority level using two ormore orders in an order queue;

FIGS. 7A-7B are block diagrams that attempt to graphically illustratethe process of increasing and decreasing priority levels in a pro-ratasystem; and

FIG. 8 a block diagram illustrating a graphical interface for displayingorder queue priority related information.

DETAILED DESCRIPTION I. Order Priority Level Modification

Typically, an electronic exchange maintains an exchange order book thatrepresents unexecuted buy and sell orders for a particular tradeableobject. A matching engine at the exchange attempts to match the incomingorders to those orders resting in the exchange order book. If there isno match, the orders are preferably sorted by a matching algorithm suchas by price and time priority. In particular, the exchange's logic sortsthe orders into the appropriate price queue where the orders rest untilthey are matched by the matching engine or until the orders are deletedor changed by the trader, for example.

According to a preferred embodiment, an order that is sent to anexchange includes a parameter enabling a trader to define the trader'spriority preferences for the order. For example, the parameter maydefine (i) a trader's preference to have his order moved up to a higherpriority level, if possible, or (ii) a trader's willingness to have hisorder moved down to a lower priority level in certain situations. Insuch an embodiment, when an exchange receives an order including anorder parameter defining a trader's preference to have his order movedup to a higher priority level, the exchange may first determine whetherthere are any orders in an order queue that can be moved to a lowerpriority level of the received order. More specifically, the exchangedetermines whether there is any order including an order parameterdefining that the order can be moved down to a lower priority level. Itshould be understood, and as will be described in greater detail below,a trader who defines his willingness to have his order moved to a lowerpriority level may limit how far down his order can be moved in theorder queue in terms of the priority level, and/or how many times hisorder can be moved so that the order is not moved to lower prioritylevels indefinitely. However, it should be understood that the exampleembodiments described herein are not limited to moving orders in anorder queue. Alternatively, each order may be associated with anindicator defining a priority level for each order in an order queue,and the priority level indicator may define a percentage of the order tobe filled during each round of fills until the order is fully filled,for example.

Also, preferably, the trader who is gaining a higher priority level willbe charged a fee for having his order priority increased, and a traderwho is giving up his priority level will receive a payment. The fee maybe a direct fee, such as when a payment is directly transferred betweenthe trader's accounts, or it could be an indirect fee, such as when acommission is first transferred to an exchange, and then the exchangeapplies a credit to an account of a trader whose order was transferredto a lower priority level. Also, it should be understood that,regardless of the way the fee is transferred between the traders'accounts, an exchange could also collect a fee for changing prioritylevels of the traders' orders in an order queue. Also, as will bedescribed in greater detail below, the fees may be based on manydifferent criteria including time of day, an order quantity to betransferred to the higher order priority, differences in priority levelsof two orders, or any other user-configurable criteria, for example.

While the present invention is described herein with reference toillustrative embodiments for particular applications, it should beunderstood that the present invention is not limited thereto. Thosehaving ordinary skill of art will recognize that many additionalmodifications and embodiments are possible as well.

II. Hardware and Software Overview

FIG. 1 is a block diagram illustrating an example trading system 100 inaccordance with the preferred embodiments. The system 100 includes oneor more exchanges 102, 104, 106 and one or more client devices 108, 110,112. Intermediate devices such as gateways 114, 116, 118, routers (notshown), and other such types of network devices may be used to connectnetwork 120 to networks 122, 124, and 126 so that client devices 108,110, 112 and exchanges 102, 104, 106 can communicate market information.It should be understood that the present invention is not limited to anyparticular system configuration. For example, networks 122, 124, and 126could represent the same network, network 120 could represent the samenetwork as networks 122, 124, and 126, or client devices 108, 110, 112could connect separately to gateways 114, 116, 118. Of course, thepreferred embodiments may be implemented on many other systemconfigurations.

A. Exchange

Any of exchanges 102, 104, 106 may represent, for example, the LondonInternational Financial Futures and Options Exchange (“LIFFE”), theChicago Board of Trade (“CBOT”), the New York Stock Exchange (“NYSE”),the Chicago Mercantile Exchange (“CME”), the Exchange Electronic Trading(“Xetra,” a German stock exchange), or the European Exchange (“Eurex”),or any other exchange that participates in electronic trading. Exchanges102, 104, 106 might also refer to other facilities, which include basicor more complex systems that automatically match incoming orders. Theseexample exchanges and other exchanges are well known in the art.Communication protocols required for connectivity to one of theseexchanges are also well known in the art.

Exchanges 102, 104, 106 allow traders to log into a market to tradetradeable objects. As used herein, the “tradeable object” refers simplyto anything that can be traded with a quantity and/or price. Itincludes, but is not limited to, all types of tradeable objects such asfinancial products, which can include, for example, stocks, options,bonds, futures, currency, and warrants, as well as funds, derivatives,and collections of the foregoing, and all types of commodities, such asgrains, energy, and metals. The tradeable object may be “real,” such asproducts that are listed by an exchange for trading, or “synthetic,”such as a combination of real products that is created by the user. Atradeable object could actually be a combination of other tradeableobject, such as a class of tradeable objects.

An exchange 102, 104, 106 can implement numerous types of orderexecution algorithms, and sometimes the type of algorithm depends on thetradeable object being traded. Preferably, the example embodiments canbe adapted by one skilled in the art to work with any order executionalgorithms. Some example order execution algorithms includefirst-in-first-out (“FIFO”) and pro rata algorithms. The FIFO algorithm,used for some tradeable objects listed with Eurex, for example, givespriority to the first person in an order queue at an exchange to placean order. The pro rata algorithm, used for some tradeable objects listedwith LIFFE, for example, splits orders for the same price, and theorders at identical prices are filled in proportion to their size. Also,the present invention is not limited to any particular type of orderexecution algorithm. It should also be understood that the order queueis a term that covers any type of data structure and/or memory storagesystem used by a exchange to conduct orderly financial transactions in abroad range of systems such as, for example, FIFO or pro rata systems.

Regardless of the type of order execution algorithm used, each exchange102, 104, and 106 preferably provides similar types of information inmarket updates found in their data feeds to subscribing client devices108, 110, and 112. Market information may include data that representsjust the inside market. The inside market is the lowest sell price (bestask) and the highest buy price (best bid) at a particular point in time.Market information may also include market depth. Market depth refers toquantities available at the inside market and can also refer toquantities available at other prices away from the inside market. Thequantity available at a given price level is usually provided by thehost exchange in aggregate sums. The extent of the market depthavailable to a trader usually depends on the exchange. For instance,some electronic exchanges provide market depth for all (or most) pricelevels, some exchanges provide market depth for a finite number of pricelevels, while some exchanges provide only quantities associated with theinside market, and others may provide no market depth at all.Additionally, exchanges 102, 104, 106 can offer other types of marketinformation, for example, the last traded price (“LTP”), the last tradedquantity (“LTQ”), total traded quantity (“TTQ”), and order fillinformation. It should be understood that the present invention is notlimited to receiving and analyzing a data feed consisting of marketupdates. One skilled in the art would recognize upon reading thedescription herein that the present invention has utility in any tradingapplication where any particular type of data feed is provided.

B. Gateway

Gateways 114, 116, and 118 are devices such as a mainframe, superminicomputer, workstation, or microcomputer that connect network 120 tonetworks 122, 124, 126 so that market information can be successfullypassed between client devices 108, 110, 112 and exchanges 102, 104, 106.Gateways 114, 116, 118 receive market information from exchanges 102,104, 106 and convert it to a form compatible with the protocols used byclient devices 108, 110, 112 using conversion techniques known in theart. Also, as known by those skilled in the art, gateways 114, 116, and118 may have one or more servers to support the data feeds, such as aprice server for processing price information, an order server forprocessing order information, and a fill server for processing fillinformation. A trader at one of client devices 108, 110, and 112 cansubscribe to price information, order information, and fill informationfor a particular market hosted at exchanges 102, 104, 106. Gateways 114,116, 118 also receive transaction information, such as orders, orderchanges, queries, etc., from client devices 108, 110, 112 and forwardthat information to corresponding exchanges 102, 104, and 106.

C. Client Device

Client devices 108, 110, 112 are devices that provide an interface fortraders to trade at one or more markets listed with one, some, or all ofexchanges 102, 104, 106. Some exchanges of client devices include apersonal computer, laptop computer, hand-held computer, and so forth.Client devices 108, 110, 112, according to the preferred embodiments,include at least a processor and memory. The processor and memory, whichare both well-known computer components, are not shown in the Figure forsake of clarity. Preferably, the processor has enough processing powerto handle and process various types of market information. Of course,the more market information is received and processed, the moreprocessing power is preferred. However, any present day processor hasenough capability to perform at least the most basic part of the presentinvention.

Memory may include a computer readable medium. The term computerreadable medium, as used herein, refers to any medium that participatesin providing instructions to a processor unit for execution. Such amedium may take many forms, including but not limited to, non-volatilemedia, and transmission media. Non-volatile media include, for example,optical or magnetic disks, such as storage devices. Volatile mediainclude dynamic memory, such as main memory or random access memory(“RAM”). Common forms of computer-readable media include, for example,floppy disks, flexible disks, hard disks, magnetic tape, punch cards, orany other magnetic medium, a CD-ROM, any other optical medium, punchcards, paper tape, any other physical medium with patterns of holes, aRAM, a PROM, and EPROM, a FLASH-EPROM, and any other memory chip orcartridge, or any other medium from which a computer can read.

Client devices 108, 110, 112 receive market information from any ofexchanges 102, 104, 106. According to the preferred embodiment, marketinformation is displayed to the trader(s) on the visual output device ordisplay device of client devices 108, 110, 112. The output device can beany type of display. For example, the display could be a CRT-based videodisplay, an LCD-based or a gas plasma-based flat-panel display, adisplay that shows three-dimensional images, or some other type ofdisplay. The present invention is not limited to any particular type ofdisplay.

Upon viewing the market information or a portion thereof, a trader maywish to send orders to an exchange, cancel orders in a market, changeorders in a market, query an exchange, and so on. To do so, the tradermay input various commands or signals into the client device 104, forexample, by typing into a keyboard, inputting commands through a mouse,or inputting commands or signals through some other input device. Uponreceiving one or more commands or signals, client devices 108, 110, 112preferably generate transaction information. For instance, a trader mayclick a mouse button to initiate an order to buy a tradeable object.Then, transaction information would include an order to buy a particularquantity of the tradeable object at a particular price. There are manydifferent types of messages and/or order types that can be submitted,all of which may be considered various types of transaction information.Once generated, transaction information is sent from client device 104to host exchange 102 over network(s) 120, 122, 124, 126.

FIG. 2 is a block diagram illustrating an example client device 200which may be similar to the type of client devices 108, 110, and 112shown in FIG. 1. The client device 200 can be any particular type ofcomputing device, examples of which were enumerated above with respectto the client device. According to the preferred embodiments, the clientdevice 200 has a trading application 202 stored in memory that whenexecuted arranges and displays market information in many particularways, usually depending on how the trader prefers to view theinformation. The trading application 202 may also implement thepreferred embodiments described herein. Alternatively, the preferredembodiments described herein may occur elsewhere such as outside of thetrading application 202 on the client device 200, on a gateway, or onsome other computing device. Preferably, the trading application 202 hasaccess to market information through an API 204 (or applicationprogramming interface), or the trading application 202 could alsoforward transaction information to the exchange 210 via the API 204.Alternatively, the API 204 could be distributed so that a portion of theAPI rests on the client device 202 and a gateway, or at the exchange210. Additionally, the trading application 202 may receive signals froman input device 212 via an input device interface 206, and can be giventhe ability to send signals to a display device 214 via a display deviceinterface 208.

III. Order Priority Level Modification 1. FIFO System

When an incoming order arrives at an exchange, a matching engineattempts to match some or all of the incoming order, depending on theorder's size and what is available in the market, to the quantityresting in the exchange's order book. If the quantities are not matchedimmediately, the arriving orders are sorted by price and time priority,for example, into the order queue where the orders rest until they arematched by the matching engine, or until the orders are deleted orchanged by the trader, for example. Using a FIFO based system, a neworder is placed in the back of the price order queue by the exchange'slogic, and the order does not get filled until all other orders in frontof the order queue are matched.

According to a preferred embodiment, an order that is sent to anexchange may include a priority parameter defining a trader's prioritypreference. The priority preference may define a trader's preference tohave his order moved up in an order queue, or may define trader'swillingness to have his order's priority moved down in an order queue.Also, it should be understood that the priority parameter may include asimple request to have an order moved to the highest possible priorityin an order queue. Alternatively, the priority parameter may include aplurality of conditional rules defining when an order should be moved toa higher priority level. For example, a trader may wish to have hisorder moved up to a higher priority level only if there is a specificnumber of orders, such as ten or more orders, in front of the trader'sorder in an order queue. Alternatively, rather than increasing theorder's priority level in an order queue based on the number of ordersin front of a trader's order in an order queue, such determination maybe based on an overall order quantity in front of the order in the orderqueue.

In addition to defining when an exchange should attempt to increase theorder's priority level in an order queue, a trader could also define amaximum fee that the trader is willing to pay to have his order moved upin the order queue. Such an embodiment may be especially useful when afee that is applied for changing the orders' priority levels depends ona distance between an order that is moved to a higher priority level andan order that is moved to a lower priority level. Alternatively, ratherthan determining an applicable fee based on a distance between twoorders in an order queue, the fee could additionally depend on an orderquantity corresponding to other orders positioned between the twoorders. In such an embodiment, the cost of moving an order up to ahigher priority position in an order queue may be higher if intermediateorders have higher order quantities than if the intermediate orders havelower order quantities.

FIG. 3 is a block diagram illustrating an electronic exchange 300 thatprovides at least one electronic market 302 with various components 304,306, 308, and 310 for carrying out the present embodiments. Theelectronic market 302 is listed at the electronic exchange 300. Theelectronic market 302 includes a receive component 304, an order queuesorting component 306, an order priority determination component 308,and an order priority modification component 310. The receive component304, the order queue sorting component 306, the order prioritydetermination component 308, and the order priority modificationcomponent 310 may include software and hardware elements to performtheir functions. It should be understood, however, that the electronicexchange 300 and the electronic market 302 may include more or fewercomponents that are not shown in FIG. 3. Also, each of the illustratedcomponents may be combined with other components. For instance, some orall of the components 304, 306, 308, and 310 may be combined with amatching engine component (not shown) of a particular market.

According to an example embodiment, a trader may define priority levelsfor one or more orders using different methods. For example, a tradermay define one or more priority preference parameters for eachindividual order that he/she submits to an exchange via a graphicalinterface, selection inputs available via a trading interface, or anyother means. Alternatively, rather than defining priority preferencesfor each order, a trader may select global priority preferences at thebeginning of a trading session, and the selected priority preferencesmay control all orders that the trader submits for a tradeable object toa specific exchange during a trading day.

Also, it should be understood that instead of a trader defining prioritypreferences for each order or a group of orders that are sent to anexchange during a trading session, any network entity on the pathbetween the client device and the electronic exchange may automaticallyinsert preferred priority preference identifier or order parameter toeach order being sent to one or more exchanges. For example, a trader'sservice subscription can identify a preferred priority level for eachorder that the trader sends to one or more exchange for specifictradeable objects. In such an embodiment, a gateway could be configuredto insert certain priority level indicators to each order being sent bysuch a trader to the specified exchanges. Also, a trader could configuredifferent priority preferences to be applied to orders being sent todifferent exchanges and for different tradeable objects. Those skilledin the art will understand that many different configurations arepossible as well.

Also, rather than a trader defining priority levels for each order thatthe trader sends to an exchange, an exchange can offer a plurality oforder types associated with different priority levels. In such anembodiment, when a trader wishes to request the highest priority level,the trader may select an order type associated with the highest priorityrequest for a certain tradeable object.

The receive component 304 receives an incoming order for one or moretradeable objects being traded in the electronic market 302 at theelectronic exchange 300. According to one preferred embodiment, theorder is received in an order request message including an orderquantity and a priority preference parameter. Preferably, a traderdefines and sends the order request message electronically to theexchange 300. When the exchange 300 receives the order request message,the order queue sorting component 306 may sort the order based on itsprice level into a predetermined order queue associated with the orderprice.

According to one embodiment, the sorting component 306 may sort theorder by price and time priority, e.g., in a FIFO system, into the priceorder queue. Using the FIFO based system, the order queue sortingcomponent 306 places the new order on the back of the order queue.Alternatively, using the pro-rata system, the order is placed into anorder queue associated with the specified order price, and the order isfilled based on a proportion of an order quantity in relation to otherorder quantities in the order queue, the embodiments of which will bedescribed in greater detail in the next section.

When an order is placed in an order queue in a FIFO system, the orderpriority determination component 308 may determine an order prioritylevel based on a current position of the order in the order queue. Suchdetermination may not only be based on a position of the order in theorder queue, but also based on a total order quantity available formatching when the market reaches the price level associated with theorders, and based on the size of the order compared to other pendingorders at the same price in front of the order. Then, in a pro-ratasystem, the order priority determination component 308 may base itspriority determination on a portion of an order that will potentiallyget filled during one or more matching rounds required to fill the orderquantity in full.

Once the order priority determination component 308 compares thepriority preferences of the order in relation to the current position ofan order in an order queue, the order priority modification component310 may compare the current order priority level with the prioritypreferences specified in the order message. In a FIFO based system, theorder priority modification component 310 may attempt to move the orderup in the order queue by moving the order to a desired position in theorder queue. As mentioned earlier, the order priority modificationcomponent 310 may attempt to move the order to the highest possiblepriority level based on available orders that can be moved down to alower priority level associated with the order. Alternatively, the orderpriority modification component 310 may resolve where the order shouldbe moved in an order queue based on the priority preference limitationsspecified in the order message. For example, if the priority preferencelimitations define a maximum fee that a trader is willing to pay forincreasing his order's priority level, the order priority modificationcomponent 310 may use that limitation to determine an optimal queueposition for the order in the order queue.

In addition to any limitations that a trader may specify in an ordermessage, the order priority modification component 310 could also belimited by other factors when moving orders to higher priority levels.In one embodiment, an order quantity of an order at a higher prioritylevel to which the order priority modification component 310 attempts totransfer another order may control how much quantity can be transferredto the order's position in an order queue. For example, if an orderquantity of an order to be used to increase another order's prioritylevel is 20, and an order quantity of the order to be transferred to thehigher priority level is 40, only the order quantity of 20 will betransferred to the higher priority level. In such an embodiment, morethan one order could be used to move the order to the higher prioritylevel.

Also, if an order quantity of an order at a lower priority level islower than an order quantity of an order at a higher priority level,only a portion of the order quantity at the higher priority level couldbe replaced with the order quantity of the order that was initially atthe lower priority level. In such an embodiment, a fee that is appliedfor transferring the order to a higher priority level may depend on anorder quantity being transferred to the higher priority level. Forexample, a trader willing to have an order moved to a lower prioritylevel may define a number of limitations to control how many orders canbe transferred to the order's position in an order queue. Alternatively,the order priority modification component 310 could be limited to movinga single order to a higher priority position in an order queue as longas the order that is moved to the higher priority position has an orderquantity equal to or lower than an order quantity of the orderoriginally at that priority level.

FIG. 4 is a flow chart illustrating one example method 400 forincreasing a priority level of an order in an electronic tradingenvironment. However, it should be understood that the flowchart in FIG.4 provides only an illustrative description of one method for increasingpriority levels of orders in an order queue, and that more or fewersteps may be included in the flowchart, and the steps may occur in oneor more orders that are different from the orders of the steps shown inFIG. 4. Also, the steps of the method 400 may be performed by thecomponents described in relation to FIG. 3. However, it should beunderstood that any other network components located at one or morenetwork entities could be used to perform the method 400.

At step 402, an electronic exchange receives a first order including oneor more priority parameters defining priority preferences to have theorder moved up in an order queue to a higher priority level. Asmentioned in earlier paragraphs, the priority preferences may define anumber of criteria that can be used to determine a desired prioritylevel for the order. For example, the priority preference may simplydefine a request to move the order to the highest possible and availablepriority level in an order queue. Alternatively, the prioritypreferences may include a number of limitations, such as costlimitations, that may limit how far the order can be moved in an orderqueue. Also, the priority preferences may define when the order shouldbe moved to a higher priority level. For example, a trader may want tohave his order moved to a higher priority level only when the number oforders in front of the trader's order in an order queue reaches apredetermined number, or when an order quantity in front of the trader'sorder reaches a predetermined level. However, it is assumed in themethod 400 that when the first order reaches the exchange, the prioritylevel of the order is to be increased.

At step 404, the order is placed in an order queue. At step 406, anorder priority modification component or any other component in amatching engine, for example, may determine if there is at least onesecond order in the order queue that can be used to increase the firstorder's priority level. If no such order is found, the method 400terminates. If at least one order is found that can be used to increasethe first order's priority level, at step 408, at least a portion of thefirst order is moved to a higher priority level in an order queueassociated with the second order. At step 410, at least a portion of thesecond order is moved to a lower priority level of the first order. Itshould be understood that even though the flow chart 400 illustrates thelast two steps separately, the steps could be performed simultaneously.

Typically, order queue information is in electronic form, such as incomputer memory. However, FIGS. 5A-5C attempt to graphically illustratethe process of moving orders between different priority levels in anorder queue 500 for purposes of explanation. Referring to FIG. 5A, theorder queue 500 includes three orders, Order 1, Order 2, and Order 3.Order 1 is in front of the order queue 500 and is next to be matchedassuming the market moves to the price level represented by the orderqueue. Also, Order 1 is associated with a “Decrease Priority” identifierindicating that Order 1 can be moved down to a lower priority level. Thenext order to be filled in the order queue 500 is Order 2 that isassociated with a “Standard Priority” indicating that Order 2 is not tobe moved up or down in the order queue 500. Order 3 is an incoming orderthat will be placed at the back of the order queue 500. Also, Order 3 isassociated with an “Increase Priority” identifier indicating that Order3 should be preferably moved up to a higher priority level. It should beunderstood, and as mentioned in earlier paragraphs, the IncreasePriority Identifier may be associated with a number of prioritypreference parameters; however, in this example, it is assumed that thepriority preference parameters include a request to have the order movedto the best available priority level in the order queue 500.

FIG. 5B illustrates an arrangement of orders in the order queue 500 onceOrder 3 is placed in the order queue 500. In a FIFO system, Order 3, asillustrated in FIG. 5B, would preferably be placed at the back of theorder queue 500. Then, once Order 3 is placed in the order queue 500,the order priority modification component 310 may attempt to increasethe order priority of Order 3. Since the priority level of Order 1 canbe decreased, as described in FIG. 5A, the order priority modificationcomponent 310 may attempt to change priority levels of Order 1 and Order3 in the order queue 500, as illustrated at 502 and 504, respectively.It should be understood that before moving the orders, the orderpriority modification component 310 may first determine if there are anyorder priority limiting parameters associated with Order 1, such as thelowest priority to which Order 1 can be transferred in the order queue500. Alternatively, or in addition to defining the lowest prioritylevel, Order 1 could define how many times it could be moved to lowerpriority levels. It should be understood that in example embodimentspresented herein, the process of changing priority levels of orders inan order queue may be accomplished using many different methods. Forexample, positions of two or more orders in an order queue may beswapped such that a first order is moved to a position of a second orderin an order queue, and the second order is moved to a position of thefirst order in the order queue. Alternatively, rather than moving ordersin the order queue, order parameters of the two orders can be exchangedsuch that the ownership, for example, a trader's identificationspecified in the order, as well as any other order parameters can bedynamically changed. If Order 1 can be transferred to the queue positionof Order 3, the order priority modification component 310 may proceedwith changing priority levels of Orders 1 and 3, as illustrated at 502and 504. Otherwise, Orders 1 and 3 remain at their positions in theorder queue 500.

FIG. 5C illustrates positions of Order 1 and Order 3 in the order queue500 once the order priority modification component 310 changes prioritylevels of the two orders. Thus, as illustrated in FIG. 5C, Order 3 isnow in front of the order queue, Order 2 has not changed its position,and Order 1 is now the third order to be filled in the queue.

As mentioned in earlier paragraphs, two or more orders can be used tochange another order's priority level to a higher priority level. Suchan embodiment may be applied when an order quantity to be transferred toa higher priority level is limited by an order quantity of an order atthat higher priority level. FIGS. 6A-6C attempt to graphicallyillustrate the process of moving an order to a higher priority levelusing two or more orders in an order queue for purposes of explanation.

Referring to FIG. 6A, an order queue 600 includes four orders, Orders1-4, having order quantities of “40,” “40,” “60,” and “20,”respectively. Orders 1 and 2 are associated with “Decrease Priority”identifiers indicating that these orders can be moved down to a lowerpriority level, and Orders 3 and 4 are associated with “StandardPriority” identifiers indicating that priority levels of these ordersshould not be modified. Also, the order queue 600 illustrates anincoming order, Order 5, having an order quantity of “60” that will beput at the back of the order queue 600. Also, Order 5 is to bepreferably moved to a higher priority level.

FIG. 6B illustrates an arrangement of orders in the order queue 600 onceOrder 5 is placed in the order queue 600. In a FIFO system, Order 5, asillustrated in FIG. 6B, would be preferably placed at the back of theorder queue 600. Then, once Order 5 is placed in the order queue 600,the order priority modification component 310 may attempt to increasethe priority level of Order 5. Since the priority levels of Orders 1 and2 can be decreased, the order priority modification component may usethese orders to increase priority levels of Order 5 in the order queue600. However, since the order quantity that can be transferred to ahigher priority level is limited by an order quantity of an order atthat higher priority level, there is no single order at the higherpriority level that can be used to increase a priority level of theentire order quantity of Order 5. However, the combination of Orders 1and 2 can be used to increase the order quantity of Order 5 to higherpriority levels. Thus, the priority level of order quantity of 40 isincreased to the priority level of the queue position of Order 1, asillustrated at 602, and the priority level of order quantity of 20 isincreased to the priority level of the queue position of Order 2. Then,the order quantity of Order 1 is moved to the priority level of theoriginal queue position of Order 5, as illustrated at 606. Also, thepriority level of order quantity of 20 associated with Order 2 isdecreased to a lower priority level.

FIG. 6B illustrates changing the priority level of the full orderquantity associated with Order 1 to the lower priority level in theorder queue. However, it should be understood that different embodimentsare possible as well. For example, if two or more orders are used toincrease another order's priority level, a higher percentage of Order 2could be transferred to a lower priority level than that of Order 1. Forexample, the full order quantity of 40 associated with Order 2 and anorder quantity of 20 associated with Order 1 could be moved to lowerpriority levels. Alternatively, different percentages could be definedto control what percentage of each order should be used to increaseanother order's priority level.

FIG. 6C illustrates order positions in the order queue 600 once theorder priority modification component 310 changes priority levels of theorders. Thus, as illustrated in FIG. 6C, the first portion of Order 5corresponding to the order quantity of 40 is first to be matched, andthe second portion of Order 5 corresponding to the order quantity of 20is second to be matched in the order queue 600. Once the orderquantities associated with Order 5 are filled, the next order in theorder queue is Order 2 with the remaining quantity of 20. Next, theorder queue 600 contains Order 3, Order 4, Order 1, and Order 2. Onceagain, the order quantity of Order 2 at the back of the order queue 600is 20 since only 50% of Order 2 was used to increase the priority levelof Order 5. Also, as illustrated in FIG. 6C, Order 1 is placed in frontof Order 2 since the initial priority level of Order 1 was higher thanthat of Order 2.

It should be understood that changing order priority levels are notlimited to the methods described in reference to FIGS. 5A-5C and 6A-6C,and different methods could also be used. Also, in FIGS. 6A-6C, insteadof transferring only a portion of an order at the higher priority levelto a lower priority level, the entire order quantity could betransferred instead. Also, it should be understood that the presentembodiments are not limited to FIFO based systems, and could be appliedin other systems as well, such as pro-rata systems, for example, theembodiments of which will be described in greater detail below.

Alternatively, rather than allowing an order at a lower priority levelto be able to be transferred to much higher priority level, where thereis a number of orders having priority levels between the higher priorityand the lower priority, one of the number of orders may include apriority preference that does not allow other orders to be moved from apriority level lower than that of the limiting order's priority level tothe higher priority level. In such an embodiment, using the prioritypreference associated with that one order, another order may beprevented from being transferred to a higher priority level than that ofthe limiting order.

2. Pro-Rata System

In a pro-rata system, an order is typically placed into an order queueassociated with a specific order price, and the order is not assignedany specific priority. However, an exchange will match each order inproportion to the order's size compared to the sizes of other pendingorders at the same price level. In such a system a bigger portion of anorder quantity will be filled for an order having an originally higherorder quantity compared to an order having a lower order quantity. Thus,although no priority levels are actually assigned to orders in apro-rata system, the orders are in a way “prioritized” since the ordersget filled in proportion to their order quantities. In other words, apro-rata system may use an algorithm that assigns weights determininghow much of each order's quantity will get filled.

Also, even though time is not directly used in pro-rata based systems todetermine which order is filled first, the time when an order is placedin an order queue is still an important factor determining what portionof the entire order quantity is filled. For example, in order toparticipate in trading at any price level, an order has to be at anexchange in an order queue corresponding to the order's price level.

In a pro-rata system, each order in an order queue may be assigned apriority level, or a weighing parameter, based on a total order quantityof the order that will be filled during the first round of fillscompared to other orders in the order queue. Then, the prioritymodification component 310 may increase a portion or percentage of anorder quantity that will potentially be filled during the first round offills. In such an embodiment, if the amount of an order quantity thatwill be potentially filled for one order is increased based on itspriority preferences, an order quantity that will be potentially filledduring the same round of fills for another order may be decreased.Similarly to a FIFO-based system, orders in a pro-rata system caninclude identifiers defining priority preferences. For example, a traderwilling to have his order moved to a lower priority level may define hispriority preferences by defining the lowest order quantity that thetrader is willing to get filled during the first round of fills, orduring a number of consecutive fills. Then, if his order reaches anexchange and a higher order quantity of his order will be potentiallyfilled compared to the lowest quantity specified in the order, thedifference in the order quantities may be used to increase anotherorder's quantity that will be potentially filled during the first roundof fills. It should be understood that similarly to the FIFO-basedsystems, an exchange may provide order types that automatically definepriority levels for any orders that the trader submits to that exchange.

Preferably, according to one embodiment, an algorithm may be created forchanging priority levels in a pro-rata system. In such an embodiment,the algorithm may control what portion of each available order should beused to increase another order's priority level, for example. In otherwords, the algorithm may assign different weights to the orders, and thematching engine may use the weights to determine the order quantity tobe matched for each order.

FIGS. 7A-7B attempt to graphically illustrate the process of increasingand decreasing priority levels in a pro-rata system. Referring to FIG.7A, an order queue 700 includes three orders, Order 1, Order 2, andOrder 3. Also, based on how pro-rata systems work, FIG. 7A does not showthe front or the back of the order queue 700, and an order quantity thatwill be filled for an order is based on the size of the order comparedto sizes of other orders in the order queue 700. As an example, it isassumed that 50% of each order will get filled during the first round offills. Therefore, as illustrated in FIG. 7A, 100 out of 200, 10 out of20, and 50 out of 100, for Orders 1, 3, and 2, respectively, will bepotentially filled during the first round of fills. Also, Order 1 isassociated with a “Decrease Priority” identifier indicating that a lowerorder quantity than 100 could be potentially filled for Order 1, andthat a priority level associated with a portion or the entire quantityof 100 could be potentially transferred to another order. Order 3 isassociated with an “Increase Priority” identifier indicating that ahigher order quantity than an order quantity of 10 should be preferablyfilled. Finally, Order 2 has a “Standard Priority” indicating that thepriority level of the order should not be increased or decreased.

According to one embodiment, the order priority modification component310 may attempt to change priority levels associated with the orderquantity of 100 of Order 1, and that associated with the remaining orderquantity of 10 corresponding to Order 3. It should be understood thatbefore changing priority levels of each order, the order prioritymodification component may determine if there are any prioritypreference limitations associated with Order 1. For example, a traderwho defines priority preference limitations may specify the highestorder quantity that can be moved to a lower priority level. Assumingthat the priority preferences of Order 2 are such that the entire orderquantity should preferably be put at the highest possible prioritylevel, the order priority modification component 310 may determine ifthe priority level for the order quantity of 10 can be transferred fromOrder 1. If so, the order priority modification component 310 maydecrease the order quantity to be filled during the first round of fillsfor Order 1 by 10, and increase the order quantity to be potentiallyfilled during the first round of fills for Order 2 by the same quantityof 10.

FIG. 7B illustrates order quantities for each order in the order queue700 after modifying priority levels associated with Order 1 and Order 3.Thus, the order quantity of Order 3 that will be potentially filledduring the first round of fills is now 20, and the order quantity ofOrder 1 that will be potentially filled during the first round of fillsis now 90. It should be understood that changing priority levels in apro-rata system is not limited to using a single order to increase theorder quantity to be potentially filled for another order, and more thanone order could be potentially used to increase the priority level of anorder quantity corresponding to a single order.

3. Fees for Priority Modifications

When priority levels of orders in an order queue are changed, one ormore orders are potentially getting moved to lower priority levels.According to one embodiment, a trader who is potentially gaining aposition closer to the front of the order queue will preferably payhigher per-trade fees, some or all of which, can be applied to anaccount of another trader who is giving up his higher priority levelposition in the order queue. Also, an exchange may charge a portion ofsuch a fee for changing priority levels of the orders. It should beunderstood that the fee being paid by a trader who is gaining a higherpriority level may be a direct fee, such as when the fee, or a portionthereof, is transferred directly between the traders' accounts.Alternatively, the fee could be indirect, such as when the fee is firsttransferred to an exchange, and then the exchange may apply the entirefee or a portion thereof to an account of the trader who is losing hishigher priority level in the order queue.

It should be understood that the amount that is charged for changingpriority levels of orders in an order queue may depend on many factors.For example, the fee may be based on a difference between prioritylevels of orders, a number of orders between the order at the higherpriority level and the lower priority level, the total order quantitybetween the two orders, time of day, type of orders, or an orderquantity that is transferred to a higher priority level. However, itshould be understood that different factors could also be used.

Also, it should be understood that a trader may be charged for obtaininga higher priority level when the trader's order, once moved to thehigher priority level, is actually filled. However, in anotherembodiment, a portion of the fee could be applied regardless of whetherthe order will get filled. Alternatively, a portion of the fee may bepayable by the trader at the time when the trader's order is moved tothe higher priority level, and the remaining portion may be charged whenthe order actually gets filled. It should be understood that manydifferent fee application methods are possible as well.

In one embodiment, such fees may be controlled by an exchange. However,alternatively, traders could take an active role in setting costs formoving orders to different priority levels. For example, a trader who iswilling to give up an order priority of one or more of his orders may“advertise” his willingness to do so, and other trader could potentiallyplace bids to move their orders to the “advertised” order priority. Atrader who “advertises” his priority level could define a minimum pricelevel at which other traders can start placing their bids, as well as aspecific time and date when the offer will no longer be available. Also,such trader could define the lowest priority level to which his iswilling to drop with his order. In such an embodiment, different traderscould submit their bids to obtain the higher priority level until theend of a bid-placing time period that may be user configurable, and thehighest bid may be selected at the end of such period. Alternatively,the trader who initiates advertising of his priority level may end thebid-placing process at any time by selecting one of the bids. Once oneof the bids is selected, an order corresponding to that bid may be movedto a higher priority level for which a trader was bidding.Alternatively, a matching engine may be configured to provide the highpriority level to the first bidder that offers the specified price,assuming that the bidder meets any limitations defined by the traderoffering the high priority level, such as a minimum price level.

It should be understood that in one embodiment only trader having theirorders already in an order queue may be allowed to place bids for higherpriority levels. In such an embodiment, a trader who wins the biddingprocess may have one of his order's priority level modified to a higherpriority level. Alternatively, no such limitation may be imposedallowing a trader who wishes to place an order to first bid for the highorder priority in a queue. In such an embodiment, when the traderobtains the high priority level, an order for that trader may beautomatically placed on the electronic exchange. For example, the tradercould submit an order type allowing a trader to bid for a priority levelin an order queue, and then once the trader obtains a desired high orderpriority level, the order is automatically submitted to the exchange andplaced at the high priority level. Also, an order of a trader who isoffering his order priority level for sale may be moved to a lowerpriority level in an order queue, or may be removed from the orderqueue.

In one embodiment, a trading interface may display priority informationin relation to market depth, such as indicators corresponding topriority levels of trader's orders as well as other pending orders atall or some price levels. Also, the trading interface could color codepriority level indicators of those orders for which other traders canplace bids. Also, it should be understood that when such priority levelindicators are displayed via a trading interface, a trader could changepriority preferences for any of his orders at any time until the ordersare filled. Such indicators could be displayed via a commerciallyavailable trading application such as X_TRADER® from TradingTechnologies International, Inc. of Chicago, Ill. X_TRADER@ alsoprovides an electronic trading interface, referred to as MD Trader™, inwhich working orders and/or bid and ask quantities are displayed inassociation with a static axis of prices. Portions of the X_TRADER® andthe MD Trader™-style display are described in U.S. patent applicationSer. No. 09/590,692, entitled “Click Based Trading With Intuitive GridDisplay of Market Depth,” filed on Jun. 9, 2000, which issued as U.S.Pat. No. 6,772,132 on Aug. 3, 2004; U.S. patent application Ser. No.09/971,087, entitled “Click Based Trading With Intuitive Grid Display ofMarket Depth and Price Consolidation,” filed on Oct. 5, 2001, whichissued as U.S. Pat. No. 7,127,424 on Oct. 24, 2006; U.S. patentapplication Ser. No. 10/125,894, entitled “Trading Tools For ElectronicTrading,” filed on Apr. 19, 2002, which issued as U.S. Pat. No.7,389,268 on Jun. 17, 2008; and U.S. patent application Ser. No.10/376,417, entitled “A System and Method for Trading and DisplayingMarket Information in an Electronic Trading Environment,” filed on Feb.28, 2003, which issued as U.S. Pat. No. 7,228,289 on Jun. 5, 2007, thecontents of each are incorporated herein by reference. However, itshould be understood that the indicators could also be displayed usingany other automatic trading applications as well. Additionally, thepreferred embodiments are not limited to any particular product.

Also, before the trader decides to even place a bid for a priority levelof another order in an order queue, a trader preferably will be able toview his order position in an order queue. Thus, a trader can decidewhether paying a certain price for moving his order to a higher prioritylevel makes sense considering his current priority level. In oneembodiment, an exchange could provide queue position information.Alternatively, order positions could be estimated using methods thathave been described in U.S. patent application Ser. No. 10/452,567,filed on May 30, 2003, entitled “System and Method for Estimating OrderPosition,” the contents of which are incorporated herein by reference.The present invention can also use the methods and apparatus forestimating the number of orders in a price order queue, and forestimating the size of each order, the methods of which have beendescribed in U.S. patent application Ser. No. 10/348,134, filed on Jan.21, 2003, entitled “Method and Apparatus for Providing Order QueueInformation,” which issued as U.S. Pat. No. 7,620,576 on Nov. 17, 2009,the contents of which are also incorporated herein by reference.

In one embodiment, it should be understood that other than allowing alltraders to advertise and offer for sale their queue positions, anexchange may restrict the process to the highest order position in anorder queue. In such an embodiment, only a trader whose order is firstto be filled in an order queue, or having the highest order quantity tobe filled during one or more first round of fills, may be able to offerhis position for sale. Further, such limitations may be extended toprice levels at which the trader has his order. For example, a traderhaving the highest priority level at the inside market price could beable to advertise his priority. When a trader communicates to anexchange his willingness to have his priority level trader by selectinga selection input on a trading interface, for example, the exchangecould send that information to other traders trading that tradeableobject at the exchange. In one embodiment, upon receiving a signal fromthe exchange, each trading interface may display an indicator inassociation with a price level defining another trader's willingness tohave his highest priority level traded. Then, for example, the firsttrader who selects the indicator may receive the highest priority levelin the order queue. Once again, as mentioned earlier, there could belimitations as to which traders can actually bid for the highestpriority level. In one embodiment, only traders having pending orders inthe order queue may be provided with indicators defining anothertrader's offer, or any trader who is not even currently participating inthe market may have access to such indicators.

Rather than limiting trader's ability to advertise the highest prioritylevels, any trader could advertise his priority level. Also, in such anembodiment, a trading interface could display trader's order position aswell as other orders for which the trader can place bids. FIG. 8 is ablock diagram illustrating a graphical interface 800 for displayingorder queue priority related information.

The trading interface 800 displays market information via a marketinformation region, such as a current Bid Quantities (“BidQ”) region 804and a current Ask Quantities (“AskQ”) region 808, as well astrader-related information, such as trader's Working Orders (“Working”)region 802. The price axis 806 and variations thereof are described inU.S. patent application Ser. No. 09/590,692, entitled “Click BasedTrading With Intuitive Grid Display of Market Depth,” which issued asU.S. Pat. No. 6,772,132 on Aug. 3, 2004, in the U.S. patent applicationSer. No. 09/971,087, entitled “Click Based Trading With Intuitive GridDisplay of Market Depth And Price Consolidation,” which issued as U.S.Pat. No. 7,127,424 on Oct. 24, 2006, and in U.S. patent application Ser.No. 10/376,417, entitled “System and Method for Trading and DisplayingMarket Information in an Electronic Environment,” which issued as U.S.Pat. No. 7,228,289 on Jun. 5, 2007.

When a trader submits an order to an exchange, the trading interface 800may display a position of an order in an order queue. As illustrated inFIG. 8, the trading interface displays three order queues at pricelevels of 147, 143, and 139, respectively. The three order queuesinclude three orders that have been submitted by the trader, such asorders 812, 814, and 816. It should be understood that a trader mayconfigure an indicator type or a color scheme that should be used todistinguish the trader's orders from other orders that are displayed viathe trading interface. Also, the trading interface 800 may displayorders that the trader may use to improve his priority level. Suchorders may include orders for which the trader may place bids, forexample. One such order, an order 818, is illustrated in relation to theorder queue associated with the price level of 139. In one embodiment,to place a bid for the priority level of the order 818, a trader couldsimply select the order indicator 818 that in turn may invoke anotherwindow via which the trader may view the highest pending bid, or placehis own bid, for example.

Also, it should be understood that once a trader views his order'sposition in an order queue, the trader could at any time decide to“advertise” his order's priority level for bidding by other traders. Inone embodiment, the trading interface could display a graphicalselection input that could be used by a trader to initiate the“advertising” process. Then, once such input is selected, the tradercould select an order indicator associated with an order that the traderis willing to have moved to a lower priority level. It should beunderstood that many other embodiments are possible as well.

The above description of the preferred embodiments, alternativeembodiments, and specific examples, are given by way of illustration andshould not be viewed as limiting. Further, many changes andmodifications within the scope of the present embodiments may be madewithout departing from the spirit thereof, and the present inventionincludes such changes and modifications.

It will be apparent to those of ordinary skill in the art that methodsinvolved in the system and method for changing order priority levels inan electronic trading environment may be embodied in a computer programproduct that includes one or more computer readable media. For example,a computer readable medium can include a readable memory device, such asa hard drive device, a CD-ROM, a DVD-ROM, or a computer diskette, havingcomputer readable program code segments stored thereon. The computerreadable medium can also include a communications or transmissionmedium, such as, a bus or a communication link, either optical, wired orwireless having program code segments carried thereon as digital oranalog data signals.

The claims should not be read as limited to the described order orelements unless stated to that effect. Therefore, all embodiments thatcome within the scope and spirit of the following claims and equivalentsthereto are claimed as the invention.

1. A method for managing orders in an order queue at an electronictrading environment, the method comprising: sorting, via a server of anelectronic exchange, a plurality of orders in an order book for atradeable object at the electronic exchange, each order of the pluralityof orders including an order price for the tradeable object and auser-identified priority, where the plurality of orders are arrangedinto an order queue for order matching by the electronic exchangeaccording to a match algorithm of the electronic exchange andprioritized within the order queue according to the user-identifiedpriority; and generating, via the server, a fee for moving an order ofthe plurality of orders from a lower priority level in the order queueto a higher priority level in the order queue.
 2. The method of claim 1where a trader for an order of the plurality of orders moved from thelower priority level in the order queue to the higher priority level inthe order queue is assessed the fee.
 3. The method of claim 1 where atrader for an order of the plurality of orders moved from the higherpriority level in the order queue to the lower priority level in theorder queue is credited the fee.
 4. The method of claim 1 where sortingthe plurality of orders comprises swapping positions of a first orderand a second order in the order queue according to the user-identifiedpriority for the first order and the second order.
 5. The method ofclaim 4 where the trader of the first order is assessed the fee.
 6. Themethod of claim 4 where the trader of the second order is credited atleast a portion of the fee.
 7. The method of claim 4 where the secondorder comprises a second quantity being less than a first quantity ofthe first order and where sorting comprises swapping positions in theorder queue of a portion of the first quantity with the second quantity.8. The method of claim 4 where the second order comprises a secondquantity being greater than a first quantity of the first order andwhere sorting comprises swapping positions in the order queue for thefirst quantity with a portion of the second quantity.
 9. The method ofclaim 1 where sorting the plurality of orders comprises transferringownership of sorted orders.
 10. The method of claim 1, furthercomprising displaying a queue position for the plurality of orders on agraphical user interface.
 11. A non-transitory computer readable mediumhaving instructions stored thereon, which when executed by a processorcause the processor to perform acts comprising: sorting, via a server ofan electronic exchange, a plurality of orders in an order book for atradeable object at the electronic exchange, each order of the pluralityof orders including an order price for the tradeable object and auser-identified priority, where the plurality of orders are arrangedinto an order queue for order matching by the electronic exchangeaccording to a match algorithm of the electronic exchange andprioritized within the order queue according to the user-identifiedpriority; and generating, via the server, a fee for moving an order ofthe plurality of orders from a lower priority level in the order queueto a higher priority level in the order queue.
 12. The non-transitorycomputer readable medium of claim 11 where the trader for the order ofthe plurality of orders moved from the lower priority level in the orderqueue to the higher priority level in the order queue is assessed thefee.
 13. The non-transitory computer readable medium of claim 11 wheresorting the plurality of orders comprises swapping positions of a firstorder and a second order in the order queue according to theuser-identified priority for the first order and the second order. 14.The non-transitory computer readable medium of claim 13 where the traderof the first order is assessed the fee.
 15. The non-transitory computerreadable medium of claim 13 where the trader of the second order iscredited at least a portion of the fee.
 16. The non-transitory computerreadable medium of claim 13 where the second order comprises a secondquantity being less than a first quantity of the first order and wheresorting comprises swapping position in the order queue of a portion ofthe first quantity with the second quantity.
 17. The non-transitorycomputer readable medium of claim 13 where the second order comprises asecond quantity being greater than the first quantity of the first orderand where sorting comprises swapping positions in the order queue forthe first quantity with a portion of the second quantity.
 18. Thenon-transitory computer readable medium of claim 11 where sorting theplurality of orders comprises transferring ownership of sorted orders.19. The non-transitory computer readable medium of claim 11, furthercomprising displaying a queue position for the plurality of orders on agraphical user interface.